The role of late embryogenesis abundant (LEA) proteins in stress tolerance was examined by using a yeast expression system. LEA protein tolerance to the abotic stresses in plants involved in salt, drought and freezi...The role of late embryogenesis abundant (LEA) proteins in stress tolerance was examined by using a yeast expression system. LEA protein tolerance to the abotic stresses in plants involved in salt, drought and freezing stresses and additional tolerance to heat, NaHCO3 (salt-alkali) and ultraviolet radiation was also investigated. The transgenic yeast harboring the Tamarix LEA gene (DQ663481) was generated under the control of inducible GAL promoter (pYES2 vector), yeast cells transformed with pYES2 empty vector were also generated as a control. Stress tolerance tests showed that LEA yeast transformants exhibited a higher survival rates than the control transformants under high temperature, NaHCO3, ultraviolet radiation, salt (NaCl), drought and freezing, indicating that the LEA gene is tolerant to these abiotic stresses. These results suggest that the LEA gene is resistant to a wider repertoire of stresses and may play a common role in plant acclimation to the examined stress conditions.展开更多
Superoxide dismutases are metalloproteins which play a major role in defense against oxygen radicalmediated toxicity in aerobic organisms. Such proteins are important endogeneity cytoprotection factor involving defenc...Superoxide dismutases are metalloproteins which play a major role in defense against oxygen radicalmediated toxicity in aerobic organisms. Such proteins are important endogeneity cytoprotection factor involving defence. A 751-bp full-length cDNA sequence of an SOD gene was isolated from the Trichoderma harzianum. The full-length cDNA of the SOD gene consists of one 465-bp open reading frame nucleotide, which encodes a 15.7-kDa polypeptide consisting of 154 amino acid residues. Sequence analysis revealed that SOD gene has more than 72%-86% amino acid sequence homology with those of other fungi. The SOD gene was integrated into the genomic DNA of pYES2 by insertion into a single site for recombination, yielding the recombinant pYES2-SOD. SOD expressed by pYES2-SOD was induced by galactose. We test whether SOD could offer abiotic stress resistance when it was introduced into yeast ceils. A transgenic yeast harboring T. harzianum SOD was generated under the control of a constitutively expressed GAL promoter. The results indicated that SOD yeast transformants had significantly higher resistance to salt and drought stress.展开更多
基金National Key Program on Basic Research and Development of China (G1999016003)
文摘The role of late embryogenesis abundant (LEA) proteins in stress tolerance was examined by using a yeast expression system. LEA protein tolerance to the abotic stresses in plants involved in salt, drought and freezing stresses and additional tolerance to heat, NaHCO3 (salt-alkali) and ultraviolet radiation was also investigated. The transgenic yeast harboring the Tamarix LEA gene (DQ663481) was generated under the control of inducible GAL promoter (pYES2 vector), yeast cells transformed with pYES2 empty vector were also generated as a control. Stress tolerance tests showed that LEA yeast transformants exhibited a higher survival rates than the control transformants under high temperature, NaHCO3, ultraviolet radiation, salt (NaCl), drought and freezing, indicating that the LEA gene is tolerant to these abiotic stresses. These results suggest that the LEA gene is resistant to a wider repertoire of stresses and may play a common role in plant acclimation to the examined stress conditions.
基金the National High Technology Research and Development Programme of China(No.2003AA241140)
文摘Superoxide dismutases are metalloproteins which play a major role in defense against oxygen radicalmediated toxicity in aerobic organisms. Such proteins are important endogeneity cytoprotection factor involving defence. A 751-bp full-length cDNA sequence of an SOD gene was isolated from the Trichoderma harzianum. The full-length cDNA of the SOD gene consists of one 465-bp open reading frame nucleotide, which encodes a 15.7-kDa polypeptide consisting of 154 amino acid residues. Sequence analysis revealed that SOD gene has more than 72%-86% amino acid sequence homology with those of other fungi. The SOD gene was integrated into the genomic DNA of pYES2 by insertion into a single site for recombination, yielding the recombinant pYES2-SOD. SOD expressed by pYES2-SOD was induced by galactose. We test whether SOD could offer abiotic stress resistance when it was introduced into yeast ceils. A transgenic yeast harboring T. harzianum SOD was generated under the control of a constitutively expressed GAL promoter. The results indicated that SOD yeast transformants had significantly higher resistance to salt and drought stress.
